Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting Criteria

Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting Criteria

In modern construction industry, fabrication of sustainable concrete has turned the decision-making process into a challenging endeavor. One alternative is using fly ash and nanostructured silica as cement replacements. In these modern mixtures, proper concrete bulk density, percentage of voids, and...

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Main Authors: Nitza M. García, Hildélix L. Soto-Toro, Mauricio Cabrera-Ríos, Oscar Marcelo Suárez
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Advances in Civil Engineering
Online Access:http://dx.doi.org/10.1155/2018/3780810
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spelling doaj-60bb631c923a4316b2facc924e2245b22020-11-24T20:48:15ZengHindawi LimitedAdvances in Civil Engineering1687-80861687-80942018-01-01201810.1155/2018/37808103780810Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting CriteriaNitza M. García0Hildélix L. Soto-Toro1Mauricio Cabrera-Ríos2Oscar Marcelo Suárez3Department of Industrial Engineering, University of Puerto Rico, Mayagüez, PR, USADepartment of Civil Engineering and Surveying, University of Puerto Rico, Mayagüez, PR, USADepartment of Industrial Engineering, University of Puerto Rico, Mayagüez, PR, USADepartment of Engineering Science and Materials, University of Puerto Rico, Mayagüez, PR, USAIn modern construction industry, fabrication of sustainable concrete has turned the decision-making process into a challenging endeavor. One alternative is using fly ash and nanostructured silica as cement replacements. In these modern mixtures, proper concrete bulk density, percentage of voids, and compressive strength normally cannot be optimized individually. Hereby, a decision-making strategy on the replacement of those components is presented while taking into account those three performance measurements. The relationships among those components upon concrete fabrication required a design of experiments of mixtures to characterize those mineral admixtures. This approach integrates different objective functions that are in conflict and obtains the best compromise mixtures for the performance measures being considered. This optimization strategy permitted to recommend the combined use of fly ash and nanosilica to improve the concrete properties at its early age.http://dx.doi.org/10.1155/2018/3780810
collection DOAJ
language English
format Article
sources DOAJ
author Nitza M. García
Hildélix L. Soto-Toro
Mauricio Cabrera-Ríos
Oscar Marcelo Suárez
spellingShingle Nitza M. García
Hildélix L. Soto-Toro
Mauricio Cabrera-Ríos
Oscar Marcelo Suárez
Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting Criteria
Advances in Civil Engineering
author_facet Nitza M. García
Hildélix L. Soto-Toro
Mauricio Cabrera-Ríos
Oscar Marcelo Suárez
author_sort Nitza M. García
title Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting Criteria
title_short Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting Criteria
title_full Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting Criteria
title_fullStr Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting Criteria
title_full_unstemmed Optimal Cement Mixtures Containing Mineral Admixtures under Multiple and Conflicting Criteria
title_sort optimal cement mixtures containing mineral admixtures under multiple and conflicting criteria
publisher Hindawi Limited
series Advances in Civil Engineering
issn 1687-8086
1687-8094
publishDate 2018-01-01
description In modern construction industry, fabrication of sustainable concrete has turned the decision-making process into a challenging endeavor. One alternative is using fly ash and nanostructured silica as cement replacements. In these modern mixtures, proper concrete bulk density, percentage of voids, and compressive strength normally cannot be optimized individually. Hereby, a decision-making strategy on the replacement of those components is presented while taking into account those three performance measurements. The relationships among those components upon concrete fabrication required a design of experiments of mixtures to characterize those mineral admixtures. This approach integrates different objective functions that are in conflict and obtains the best compromise mixtures for the performance measures being considered. This optimization strategy permitted to recommend the combined use of fly ash and nanosilica to improve the concrete properties at its early age.
url http://dx.doi.org/10.1155/2018/3780810
work_keys_str_mv AT nitzamgarcia optimalcementmixturescontainingmineraladmixturesundermultipleandconflictingcriteria
AT hildelixlsototoro optimalcementmixturescontainingmineraladmixturesundermultipleandconflictingcriteria
AT mauriciocabrerarios optimalcementmixturescontainingmineraladmixturesundermultipleandconflictingcriteria
AT oscarmarcelosuarez optimalcementmixturescontainingmineraladmixturesundermultipleandconflictingcriteria
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